CN217146674U - Adhesive sticker labeling station for labeling machine - Google Patents

Abstract

The utility model relates to a paste mark equipment technical field, specifically be one kind and provide a non-setting adhesive mark station for labeller, including lift adjusting device, the last mount table that is provided with of lift adjusting device, the horizontal symmetry of one end of mount table is provided with the mark dish layer board, and the other end of mount table is provided with pastes the mark device, lies in the mark dish layer board on the mount table and pastes and is provided with between the mark device and connect the mark device, lies in on the mount table and connects mark device and paste and be provided with defeated mark system device between the mark device, connects the mark device including setting up the bottom plate on the mount table, and horizontal symmetry is provided with on the bottom plate and connects mark mechanism. The tail end of the base paper in the current label is adhered to the head end of the standby label, adhesion between the base paper and the base paper is achieved, adhesion is firm, the label receiving mechanism can move along with the label in the adhering process to play a role in buffering, the label is prevented from being stretched and broken, after adhesion is completed, the label receiving cylinder returns, the label receiving mechanism recovers the initial station state under the action of the reset spring, and one-time automatic label receiving is completed.

Description

Adhesive sticker labeling station for labeling machine

Technical Field

The utility model relates to a labeller equipment technical field especially relates to a non-setting adhesive mark station for labeller.

Background

The labeling machine is a device for peeling labels in label paper from base paper and adhering the labels to packages, and is an indispensable component of modern packaging technology.

In order to realize continuous label supply in the existing labeling machine, a label receiving device is usually arranged in a non-setting adhesive label station, and the label receiving device is used for connecting the tail end of the current label paper and the head end of the standby label paper together when the current label paper is about to be used up, so that continuous label supply and labeling are realized; in the conventional label receiving device, in the label paper connecting process, the label side in the current label paper and the back side of the base paper in the standby label paper are usually adhered and connected with each other, that is, the standby label paper is adhered on the label of the current label paper, however, the adhesion force between the label and the base paper in the label paper is low, which causes the label paper to be easily pulled and broken at the connecting position in the subsequent label supplying process after the label paper is connected, and the label supplying is interrupted.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a non-setting adhesive label station for labeller, the utility model provides a non-setting adhesive label station for labeller.

In one aspect of the implementation of the utility model, the non-drying adhesive label station for the labeling machine is provided, which comprises a lifting adjusting device, wherein the lifting adjusting device is provided with a mounting table, one end of the mounting table is transversely and symmetrically provided with a label plate, the other end of the mounting table is provided with a labeling device, a label receiving device is arranged on the mounting table and is positioned between the label plate and the labeling device, a label conveying system device is arranged on the mounting table and is positioned between the label receiving device and the labeling device, the label receiving device comprises a bottom plate arranged on the mounting table, label receiving mechanisms are transversely and symmetrically arranged on the bottom plate and comprise a fixed seat, a first guide rod is arranged on the fixed seat, the axis of the first guide rod is parallel to the advancing direction of a label, a mounting seat is slidably sleeved on the first guide rod, the mounting seat is positioned at one end of the first guide rod, and a reset spring is sleeved on the mounting seat and the rod body at the other end of the first guide rod, a label receiving cylinder is arranged on the mounting seat, and a label absorbing plate is arranged on a piston rod of the label receiving cylinder; a guide roller parallel to the label suction plate is arranged on the front side of the label suction plate on the bottom plate; a label cutting mechanism is arranged on the bottom plate upwards along the label and positioned on the front side of the guide roller, the label cutting mechanism comprises a label cutting cylinder, the axis of a piston rod of the label cutting cylinder is parallel to the label advancing direction, a cutter holder is arranged on the piston rod of the label cutting cylinder, a label cutting knife is arranged on one side surface of the cutter holder close to the label, the label cutting knife is parallel to the label advancing direction, a semicircular groove-shaped label peeling knife is arranged on one side of the label cutting knife, which is far away from the label, the cutting edge of the label peeling knife is arranged at the groove edge position of the semicircular groove and is tangent to the semicircular groove, and the cutting edge of the label peeling knife is attached to the cutting edge of the label cutting knife; the front side that lies in label cutting mechanism on the bottom plate is provided with the scallop hole, and the position that lies in scallop hole bight on the bottom plate is provided with the axle bed, is provided with first pivot on the axle bed, and the axle head of first pivot is provided with the connecting plate relatively, is provided with the label pressing roller between the connecting plate, and the lower surface of bottom plate is provided with actuating mechanism, and actuating mechanism is connected with the connecting plate and is used for pressing the label to the cutting edge of label cutting sword and label peeling knife through connecting plate dynamic pressure label pressing roller.

Compared with the prior art, the beneficial effects of the utility model reside in that: the use amount of the current label can be counted by photoelectric detection devices arranged on the front side of the label pressing roller and the rear side of the label receiving mechanism in the labeling process, when the current label is determined to be used up, a piston rod of the label pressing cylinder extends out to enable the label pressing roller to press the current label into a semicircular groove of a label peeling knife, the current label is peeled from the backing paper, meanwhile, the label cutting cylinder extends out of the label cutting knife to cut the backing paper, so that the tail end of the current label is provided with the backing paper with a certain length, the current label continues to operate, when the tail end of the current label reaches the label receiving position, the label receiving cylinders on two sides extend out to bond the tail end of the backing paper in the current label with the head end of a standby label, the bonding between the backing paper and the backing paper is realized, the bonding is firm, the label receiving mechanism can move along with the label in the bonding process to play a role in buffering role, the label is prevented from being pulled apart, and the label receiving cylinders return after the bonding is finished, the label receiving mechanism restores the initial station state under the action of the return spring to complete one-time automatic label receiving.

Optionally, a second rotating shaft is arranged between the middle portions of the connecting plates, a baffle is arranged on the second rotating shaft, a third rotating shaft is arranged on the side, opposite to the second rotating shaft, of the baffle, and the third rotating shaft and the bottom plate are arranged in a rotating mode.

Optionally, the driving mechanism includes a triangular connecting piece and a label pressing cylinder, pin holes are arranged at three corners of the triangular connecting piece, the bottom end of the first rotating shaft penetrates out of the shaft seat downwards, the bottom end of the second rotating shaft penetrates out of the connecting plate downwards, two pin holes in the triangular connecting piece are respectively sleeved at the bottom ends of the first rotating shaft and the second rotating shaft in a rotatable manner, and a piston rod of the label pressing cylinder is hinged to the triangular connecting piece through residual pin holes in the triangular connecting piece.

Optionally, the bottom plate is composed of two right-angle trapezoidal plates and a triangular plate, the two right-angle trapezoidal plates are arranged in a mode that the upper bottoms are adjacent to each other, the triangular plate is arranged at an opening position formed by inclined edges in the two right-angle trapezoidal plates, and the advancing direction of the label is parallel to seams between the plates; the left right angle position of left side right angle trapezoidal plate is provided with the round pin axle, and the right angle position of right side right angle trapezoidal plate is provided with the round pin axle, and left side right angle trapezoidal plate and right side right angle trapezoidal plate are respectively through round pin axle and mount table rotatable coupling.

Optionally, the lifting adjusting device comprises a rectangular plate fixing seat, a front sliding seat and a rear sliding seat are arranged on the rectangular plate fixing seat, the front sliding seat and the rear sliding seat are arranged in a sliding manner along the length direction of the rectangular plate fixing seat, and rotating rods are arranged on the front sliding seat and the rear sliding seat in parallel; the middle part of the rotating rod is hinged with the first side edge of the front and rear sliding seats, a left and right inclination adjusting mechanism is arranged between the first end of the rotating rod, which is positioned above the front and rear sliding seats, and the left and right inclination adjusting mechanism is used for adjusting the included angle between the rotating rod and the front and rear sliding seats; a lifting fixing seat is arranged between the rotating rods and close to the second end of the rotating rods, a lifting mechanism is vertically and upwards arranged on the lifting fixing seat, a lifting seat is arranged at the output end of the lifting mechanism, a fixing shaft is arranged on the lifting seat and positioned on one side of the lifting seat, the fixing shaft is parallel to the rotating rods, one end of the fixing shaft outwards extends out of the lifting seat by a preset length, a beacon station fixing seat used for fixing an installation platform is sleeved on a shaft body on the outer side of the lifting seat on the fixing shaft, and a rotating shaft is arranged on the beacon station fixing seat in parallel with the fixing shaft; the lifting seat is provided with a positioning plate opposite to the rotating shaft, an arc-shaped hole is vertically formed in the positioning plate, the shaft end of the rotating shaft penetrates through the positioning plate through the arc-shaped hole, and a front-back inclination adjusting mechanism is arranged between the positioning plate and the rotating shaft to enable the rotating shaft to integrally do lifting motion along the arc-shaped hole so as to change the inclination angle of the standard station fixing seat in the front-back direction.

Optionally, a second guide rod is arranged on the rectangular plate fixing seat in parallel, the front sliding seat and the rear sliding seat are respectively sleeved with a sliding block on the second guide rod and a fixing plate fixed on the sliding block in parallel, an adjusting block is sleeved on one side, located on the front sliding seat and the rear sliding seat, of the second guide rod, a first adjusting rod is arranged on the adjusting block in a rotating mode, a threaded hole is formed in the sliding block in the position opposite to the first adjusting rod, the first adjusting rod is connected with the adjusting block in a threaded mode through a threaded hole, and a locking mechanism is arranged between the adjusting block and the rectangular plate fixing seat.

Optionally, the left-right inclination adjusting mechanism comprises a first adjusting rotating shaft connected between the first ends of the rotating rods in a rotating mode, lug plates are arranged on the fixed plate and located below the first adjusting rotating shaft in a relative mode, a second adjusting rotating shaft is arranged between the lug plates, a second adjusting rod is arranged on the second adjusting rotating shaft in a rotating mode, a threaded hole is formed in the position, opposite to the second adjusting rod, of the first adjusting rotating shaft, and the second adjusting rod is in threaded connection with the first adjusting rotating shaft through the threaded hole.

Optionally, the lifting mechanism includes a spiral elevator fixed on the lifting fixing seat, guide posts are arranged on the lifting fixing seat and located on the periphery of the spiral elevator, the lifting fixing seat is sleeved on a spiral rod and the guide posts of the spiral elevator and fixed with lifting nuts of the spiral elevator, and a reinforcing plate is arranged between the spiral rod and the top ends of the guide posts.

Optionally, the front-back inclination adjusting mechanism comprises a mounting hole which is arranged on the positioning plate and located on the lower side of the arc-shaped hole, a supporting plate which is arranged on the lifting seat and opposite to the mounting hole in the positioning plate, a third adjusting rotating shaft is arranged between the supporting plate and the mounting hole in the positioning plate, a threaded hole is formed in the middle of the third adjusting rotating shaft, a third adjusting rod is rotatably arranged on the rotating shaft at a position opposite to the threaded hole in the third adjusting rotating shaft, and the third adjusting rod is in threaded connection with the third adjusting rotating shaft.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic view of a three-dimensional structure of a non-setting adhesive labeling station for a labeling machine according to an embodiment of the present invention;

fig. 2 is a schematic view of a top view structure of a non-setting adhesive labeling station for a labeling machine according to an embodiment of the present invention;

fig. 3 is a schematic view of a label moving direction of a non-setting adhesive labeling station for a labeling machine according to an embodiment of the present invention;

fig. 4 is a schematic top view of a labeling device according to an embodiment of the present invention;

fig. 5 is a schematic bottom view of a labeling device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a label receiving mechanism according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a label cutting mechanism according to an embodiment of the present invention;

fig. 8 is a schematic side view of the label cutting mechanism according to an embodiment of the present invention

Fig. 9 is a schematic perspective view of a first stamping part according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of a second embodiment of the present invention;

fig. 11 is a schematic view of a connection structure between a label pressing portion and a driving mechanism according to an embodiment of the present invention;

fig. 12 is a schematic perspective view of a lifting adjustment device according to an embodiment of the present invention;

fig. 13 is a schematic perspective view of a second lifting adjustment device according to an embodiment of the present invention;

fig. 14 is a schematic three-dimensional structure diagram of a lifting adjustment device provided in an embodiment of the present invention;

fig. 15 is a schematic front view of a lifting adjustment device according to an embodiment of the present invention;

fig. 16 is a schematic side view of a lifting adjustment device according to an embodiment of the present invention;

fig. 17 is a schematic sectional structural view of a left-right tilt adjusting mechanism according to an embodiment of the present invention.

Wherein, the lifting adjusting device 1, the mounting platform 2, the label tray supporting plate 3, the labeling device 4, the label receiving device 5, the label conveying system device 6, the bottom plate 7, the label receiving mechanism 8, the fixing seat 9, the first guide rod 10, the label 11, the mounting seat 12, the reset spring 13, the label receiving cylinder 14, the label sucking plate 15, the guide roller 16, the label cutting mechanism 17, the label cutting cylinder 18, the cutter seat 19, the label cutting knife 20, the label peeling knife 21, the shaft seat 22, the first rotating shaft 23, the connecting plate 24, the label pressing roller 25, the driving mechanism 26, the second rotating shaft 27, the baffle plate 28, the third rotating shaft 29, the triangular connecting piece 30, the label pressing cylinder 31, the rectangular plate fixing seat 32, the front and back sliding seat 33, the rotating rod 34, the left and right inclination adjusting mechanism 35, the lifting fixing seat 36, the lifting mechanism 37, the lifting seat 38, the fixing shaft 39, the label station fixing seat 40, the rotating shaft 41, the positioning plate 42, the arc-shaped hole 43, the front and back inclination adjusting mechanism 44, the label conveying system device 6, the label conveying system device 7, the label conveying device 20, the label conveying device, the label conveying device, the label conveying device, the label and the label conveying device, the label, The adjusting mechanism comprises a second guide rod 45, a sliding block 46, a fixing plate 47, an adjusting block 48, a first adjusting rod 49, a locking mechanism 50, a first adjusting rotating shaft 51, an ear plate 52, a second adjusting rotating shaft 53, a second adjusting rod 54, a guide screw 55, a locking nut 56, a guide column 57, a reinforcing plate 58, a connecting plate 59, a third adjusting rotating shaft 60 and a third adjusting rod 61.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

Referring to fig. 1, 2 and 3, an embodiment of the present invention provides a non-setting adhesive label station for a labeling machine, including a lifting adjusting device 1, a mounting table 2 is arranged on the lifting adjusting device 1, a label plate supporting plate 3 is transversely and symmetrically arranged at one end of the mounting table 2, a labeling device 4 is arranged at the other end of the mounting table 2, a label receiving device 5 is arranged between the label plate 3 and the labeling device 4 on the mounting table 2, and a label conveying system device 6 is arranged between the label receiving device 5 and the labeling device 4 on the mounting table 2; the mounting platform 2 of the marking station is a rectangular welding component and is horizontally mounted on the lifting adjusting device 1, and the marking disc supporting plate 3 consists of a circular bottom plate and a marking disc roller vertically arranged on the circular bottom plate; the labeling device 4 is used for peeling the label from the base paper and pasting the label on the package; the label feeding system device 6 is used for feeding the labels from the label receiving device 5 to the labeling device 4.

Referring to fig. 4-11, the label receiving device 5 includes a bottom plate 7 disposed on the mounting table 2, label receiving mechanisms 8 are symmetrically disposed on the bottom plate 7 in the transverse direction, each label receiving mechanism 8 includes a fixing seat 9, a first guide rod 10 is disposed on each fixing seat 9, an axis of each first guide rod 10 is parallel to a traveling direction of a label 11, a mounting seat 12 is slidably sleeved on each first guide rod 10, the mounting seat 12 is located at one end of the first guide rod 10 in the traveling direction of the label 11 in the initial state, a return spring 13 is sleeved on a rod body of each first guide rod 10 located at the other end of the mounting seat 12 and the other end of the first guide rod 12, a label receiving cylinder 14 is disposed on the mounting seat 12, and a label absorbing plate 15 is disposed on a piston rod of the label receiving cylinder 14; a guide roller 16 parallel to the label suction plate 15 is arranged on the bottom plate 7 and positioned on the front side of the label suction plate 15; a label cutting mechanism 17 is arranged on the bottom plate 7 upward along the label 11 and in front of the guide roller 16, the label cutting mechanism 17 comprises a label cutting cylinder 18, the axis of a piston rod of the label cutting cylinder 18 is parallel to the advancing direction of the label 11, a cutter holder 19 is arranged on the piston rod of the label cutting cylinder 18, a label cutting knife 20 is arranged on one side surface of the cutter holder 19, which is close to the label 11, the label cutting knife 20 is parallel to the advancing direction of the label 11, a semicircular groove-shaped label peeling knife 21 is arranged on one side of the label cutting knife 20, which is far away from the label 11, the cutting edge of the label peeling knife 21 is arranged at the groove edge of the semicircular groove and is tangent to the semicircular groove, and the cutting edge of the label peeling knife 21 is attached to the cutting edge of the label cutting knife 20; the front side of the bottom plate 7 positioned on the label cutting mechanism 17 is provided with a fan-shaped hole, the corner position of the fan-shaped hole on the bottom plate 7 is provided with a shaft seat 22, the shaft seat 22 is provided with a first rotating shaft 23, the shaft end of the first rotating shaft 23 is relatively provided with a connecting plate 24, a label pressing roller 25 is arranged between the connecting plates 24, the lower surface of the bottom plate 7 is provided with a driving mechanism 26, and the driving mechanism 26 is connected with the connecting plate 24 and used for driving the label pressing roller 25 to press the label 11 to the cutting edges of the label cutting knife 20 and the label peeling knife 21 through the connecting plate 24.

In implementation, the direction shown by the arrow in fig. 4 is the moving direction of the label 11, label sucking holes are formed in the opposite panels of the two label sucking plates 15, a vent valve communicated with the label sucking holes is formed in one side surface of each label sucking plate 15, the head end of the standby label is sucked on the panel to wait for label receiving, and the current label in use is conveyed to the labeling device 4 through the label conveying system device 6 after passing between the two label sucking plates 15 to complete labeling;

the bottom plate 7 is composed of two right-angle trapezoidal plates and a triangular plate, the two right-angle trapezoidal plates are arranged in a mode that the upper bottoms are adjacent, the triangular plate is arranged at an opening position formed by inclined sides in the two right-angle trapezoidal plates, the advancing direction of the label 11 is parallel to a joint between the plates, and for example, the label can advance along the joint position; turnabout rollers can be arranged at two bottom corner positions in the triangular plate to change the direction of the label; the left right angle position of left side right trapezoid board is provided with the round pin axle, and the right angle position of right side right trapezoid board is provided with the round pin axle, can realize setting up two right trapezoid boards and the rotation between the mount table 2 through the round pin axle to two right trapezoid boards can be opened to the left and right sides respectively, conveniently set up reserve label.

A second rotating shaft 27 is arranged between the middle parts of the connecting plates 24, a baffle 28 is arranged on the second rotating shaft 27, a third rotating shaft 29 is arranged on the side edge of the baffle 28 opposite to the second rotating shaft 27, and the third rotating shaft 29 and the bottom plate 7 are rotatably arranged.

The driving mechanism 26 comprises a triangular connecting piece 30 and a marking pressing cylinder 31, pin holes are formed in three corner positions of the triangular connecting piece 30, the bottom end of the first rotating shaft 23 penetrates out of the shaft seat 22 downwards, the bottom end of the second rotating shaft 27 penetrates out of the connecting plate 24 downwards, two pin holes in the triangular connecting piece 30 are respectively sleeved at the bottom ends of the first rotating shaft 23 and the second rotating shaft 27 in a rotatable mode, and a piston rod of the marking pressing cylinder 31 is hinged to the triangular connecting piece 30 through the residual pin holes in the triangular connecting piece 30.

Referring to fig. 12 to 17, the lifting adjusting device 1 includes a rectangular plate fixing seat 32, a front and rear sliding seat 33 is provided on the rectangular plate fixing seat 32, the front and rear sliding seat 33 is slidably provided along the length direction of the rectangular plate fixing seat 32, and a rotating rod 34 is provided in parallel on the front and rear sliding seat 33; the middle part of the rotating rod 34 is hinged with the first side edge of the front and rear sliding seats 33, a left and right inclination adjusting mechanism 35 is arranged between the first end of the rotating rod 34 positioned above the front and rear sliding seats 33 and the front and rear sliding seats 33, and the left and right inclination adjusting mechanism 35 is used for adjusting the included angle between the rotating rod 34 and the front and rear sliding seats 33; a lifting fixing seat 36 is arranged between the rotating rods 34 and close to the second end of the rotating rods 34, a lifting mechanism 37 is vertically and upwards arranged on the lifting fixing seat 36, a lifting seat 38 is arranged at the output end of the lifting mechanism 37, a fixing shaft 39 is arranged on the lifting seat 38 and positioned on one side of the lifting seat 38, the fixing shaft 39 is parallel to the rotating rods 34, one end of the fixing shaft 39 outwards extends out of the lifting seat 38 for a preset length, a standard station fixing seat 40 used for fixing the installation table 2 is sleeved on a shaft body on the fixing shaft 39 and positioned on the outer side of the lifting seat 38, and a rotating shaft 41 is arranged on the standard station fixing seat 40 and parallel to the fixing shaft 39; the lifting seat 38 is provided with a positioning plate 42 opposite to the rotating shaft 41, the positioning plate 42 is vertically provided with an arc-shaped hole 43, the shaft end of the rotating shaft 41 penetrates through the positioning plate 42 through the arc-shaped hole 43, and a front-back inclination adjusting mechanism 44 is arranged between the positioning plate 42 and the rotating shaft 41 to enable the rotating shaft to integrally do lifting motion along the arc-shaped hole 43 so as to change the inclination angle between the marking station fixing seat 40 and the front-back direction.

In practice, the front-back direction is the direction of the arrow in fig. 12, i.e. the sliding direction of the front-back sliding seat 33; the left-right tilt adjusting mechanism 35 and the front-rear tilt adjusting mechanism 44 may be implemented by using a jacking device, such as a micro electric cylinder, to adjust the angle; the lifting mechanism 37 may be a lifting device such as an electric cylinder or an air cylinder.

The rectangular plate fixing seat 32 is provided with a second guide rod 45 in parallel, the front and rear sliding seats 33 comprise a sliding block 46 which is sleeved on the second guide rod 45 in parallel and a fixing plate 47 which is fixed on the sliding block 46, one side of the second guide rod 45, which is positioned on the front and rear sliding seats 33, is provided with an adjusting block 48 in a sleeved mode, the adjusting block 48 is provided with a first adjusting rod 49 in a rotating mode, the sliding block 46 is provided with a threaded hole at the position opposite to the first adjusting rod 49, the first adjusting rod 49 is in threaded connection with the adjusting block 48 through the threaded hole, and a locking mechanism 50 is arranged between the adjusting block 48 and the rectangular plate fixing seat 32.

The locking mechanism 50 may include side plates disposed on both sides of the adjusting block 48, the bottom edges of the side plates extend downward to be flush with the bottom edge of the rectangular plate fixing seat 32, and threaded holes are disposed at positions of the bottom of the side plates opposite to the rectangular plate fixing seat 32 and provided with locking screws; in practice, the position of the rectangular plate fixing seat 32 close to the side plate can be provided with a baffle plate for enhancing firmness, and in one implementation mode, the baffle plate and the side plate can be fastened by a lock catch.

The left-right inclination adjusting mechanism 35 comprises a first adjusting rotating shaft 51 rotatably connected between the first ends of the rotating rods 34, lug plates 52 are oppositely arranged on the fixing plate 47 below the first adjusting rotating shaft 51, a second adjusting rotating shaft 53 is arranged between the lug plates 52, a second adjusting rod 54 is rotatably arranged on the second adjusting rotating shaft 53, a threaded hole is formed in the position, opposite to the second adjusting rod 54, of the first adjusting rotating shaft 53, and the second adjusting rod 54 is in threaded connection with the first adjusting rotating shaft 51 through the threaded hole.

The end of the first adjusting rod 49 is sleeved with a guide screw 55 at a position opposite to the ear plate 52, the guide screw 55 downwardly passes through the ear hole of the ear plate 52, and locking nuts 56 are arranged on rod bodies positioned at the upper and lower sides of the ear plate 52 in the guide screw 55.

The lifting mechanism 37 comprises a spiral lifter fixed on the lifting fixing seat 36, a guide post 57 is arranged on the lifting fixing seat 36 and positioned at the periphery of the spiral lifter, the lifting seat 38 is sleeved on a spiral rod and the guide post 57 of the spiral lifter and fixed with a lifting nut of the spiral lifter, and a reinforcing plate 58 is arranged between the spiral rod and the top end of the guide post 57.

The front-back inclination adjusting mechanism 44 and the left-right inclination adjusting mechanism 35 are realized in the same principle, specifically, the front-back inclination adjusting mechanism 44 comprises a mounting hole which is arranged on the positioning plate 42 and is positioned at the lower side of the arc-shaped hole 43, a connecting plate 59 which is arranged on the lifting seat 38 and is opposite to the mounting hole in the positioning plate 42, a third adjusting rotating shaft 60 is arranged between the connecting plate 59 and the mounting hole of the positioning plate, a threaded hole is arranged in the middle of the third adjusting rotating shaft 60, a third adjusting rod 61 is rotatably arranged on the rotating shaft 41 at a position opposite to the threaded hole in the third adjusting rotating shaft 60, and the third adjusting rod 61 is in threaded connection with the third adjusting rotating shaft 60; the third adjusting lever 61 is rotated to move the rotating shaft 41 up and down by the third adjusting lever 61.

The position of the adhesive label station in the front-back direction is adjusted by utilizing the front-back sliding seat before labeling; the adjustment of the inclination angle of the non-setting adhesive label station in four dimensions of front, back, left and right is realized through a left and right inclination adjusting mechanism and a front and back inclination adjusting mechanism; thereby realizing the multi-dimensional station adjustment of the self-adhesive label station, and leading the labeling device to be capable of being adapted to various bottle-shaped packages; adhering double-sided adhesive to the head end of the backing paper of the standby label, placing the backing paper on a label suction plate of a label receiving mechanism, and adsorbing the head end of the standby label on the label suction plate for standby by using a negative pressure air suction principle;

the use amount of the current label can be counted by photoelectric detection devices arranged on the front side of the label pressing roller and the rear side of the label receiving mechanism in the labeling process, when the current label is determined to be used up, a piston rod of the label pressing cylinder extends out to enable the label pressing roller to press the current label into a semicircular groove of a label peeling knife, the current label is peeled from the backing paper, meanwhile, the label cutting cylinder extends out of the label cutting knife to cut the backing paper, so that the tail end of the current label is provided with the backing paper with a certain length, the current label continues to operate, when the tail end of the current label reaches the label receiving position, the label receiving cylinders on two sides extend out to bond the tail end of the backing paper in the current label with the head end of a standby label, the bonding between the backing paper and the backing paper is realized, the bonding is firm, the label receiving mechanism can move along with the label in the bonding process to play a role in buffering role, the label is prevented from being pulled apart, and the label receiving cylinders return after the bonding is finished, the label receiving mechanism restores the initial station state under the action of the return spring to complete one-time automatic label receiving.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (9)

1. A non-setting adhesive label station for a labeler comprises a lifting adjusting device, wherein an installation platform is arranged on the lifting adjusting device, a label plate is transversely and symmetrically arranged at one end of the installation platform, a labeling device is arranged at the other end of the installation platform, a label receiving device is arranged between the label plate and the labeling device on the installation platform, and a label conveying system device is arranged between the label receiving device and the labeling device on the installation platform. A label receiving cylinder is arranged on the mounting seat, and a label absorbing plate is arranged on a piston rod of the label receiving cylinder; a guide roller parallel to the label suction plate is arranged on the front side of the label suction plate on the bottom plate; a label cutting mechanism is arranged on the bottom plate upwards along the label and positioned on the front side of the guide roller, the label cutting mechanism comprises a label cutting cylinder, the axis of a piston rod of the label cutting cylinder is parallel to the label advancing direction, a cutter holder is arranged on the piston rod of the label cutting cylinder, a label cutting knife is arranged on one side surface of the cutter holder close to the label, the label cutting knife is parallel to the label advancing direction, a semicircular groove-shaped label peeling knife is arranged on one side of the label cutting knife, which is far away from the label, the cutting edge of the label peeling knife is arranged at the groove edge position of the semicircular groove and is tangent to the semicircular groove, and the cutting edge of the label peeling knife is attached to the cutting edge of the label cutting knife; the front side that lies in label cutting mechanism on the bottom plate is provided with the scallop hole, and the position that lies in scallop hole bight on the bottom plate is provided with the axle bed, is provided with first pivot on the axle bed, and the axle head of first pivot is provided with the connecting plate relatively, is provided with the label pressing roller between the connecting plate, and the lower surface of bottom plate is provided with actuating mechanism, and actuating mechanism is connected with the connecting plate and is used for pressing the label to the cutting edge of label cutting sword and label peeling knife through connecting plate dynamic pressure label pressing roller.

2. The self-adhesive labeling station for a labeling machine according to claim 1, wherein a second rotating shaft is arranged between the middle parts of the connecting plates, a baffle plate is arranged on the second rotating shaft, a third rotating shaft is arranged on the side of the baffle plate opposite to the second rotating shaft, and the third rotating shaft is rotatably arranged with the bottom plate.

3. The sticker label station for labeler according to claim 2, wherein the driving mechanism comprises a triangular connecting member and a label pressing cylinder, pin holes are formed in three corner positions of the triangular connecting member, the bottom end of the first rotating shaft penetrates out of the shaft seat downwards, the bottom end of the second rotating shaft penetrates out of the connecting plate downwards, two pin holes in the triangular connecting member are respectively rotatably sleeved on the bottom ends of the first rotating shaft and the second rotating shaft, and a piston rod of the label pressing cylinder is hinged to the triangular connecting member through the remaining pin holes in the triangular connecting member.

4. The station of claim 1, wherein the bottom plate is formed by two right trapezoid plates and a triangular plate, the two right trapezoid plates are arranged in a manner of being adjacent to each other at the upper bottom, the triangular plate is arranged at the opening position formed by the inclined sides of the two right trapezoids, and the traveling direction of the label is parallel to the joint between the plates; the left right angle position of left side right angle trapezoidal plate is provided with the round pin axle, and the right angle position of right side right angle trapezoidal plate is provided with the round pin axle, and left side right angle trapezoidal plate and right side right angle trapezoidal plate are respectively through round pin axle and mount table rotatable coupling.

5. The self-adhesive labeling station for labelers according to claim 1, wherein the lifting adjusting device comprises a rectangular plate fixing seat, a front sliding seat and a rear sliding seat are arranged on the rectangular plate fixing seat, the front sliding seat and the rear sliding seat are arranged in a sliding manner along the length direction of the rectangular plate fixing seat, and a rotating rod is arranged on the front sliding seat and the rear sliding seat in parallel; the middle part of the rotating rod is hinged with the first side edge of the front and rear sliding seats, a left and right inclination adjusting mechanism is arranged between the first end of the rotating rod, which is positioned above the front and rear sliding seats, and the left and right inclination adjusting mechanism is used for adjusting the included angle between the rotating rod and the front and rear sliding seats; a lifting fixing seat is arranged between the rotating rods and close to the second end of the rotating rods, a lifting mechanism is vertically and upwards arranged on the lifting fixing seat, a lifting seat is arranged at the output end of the lifting mechanism, a fixing shaft is arranged on the lifting seat and positioned on one side of the lifting seat, the fixing shaft is parallel to the rotating rods, one end of the fixing shaft outwards extends out of the lifting seat by a preset length, a beacon station fixing seat used for fixing an installation platform is sleeved on a shaft body on the outer side of the lifting seat on the fixing shaft, and a rotating shaft is arranged on the beacon station fixing seat in parallel with the fixing shaft; the lifting seat is provided with a positioning plate opposite to the rotating shaft, an arc-shaped hole is vertically formed in the positioning plate, the shaft end of the rotating shaft penetrates through the positioning plate through the arc-shaped hole, and a front-back inclination adjusting mechanism is arranged between the positioning plate and the rotating shaft to enable the rotating shaft to integrally do lifting motion along the arc-shaped hole so as to change the inclination angle of the standard station fixing seat in the front-back direction.

6. The self-adhesive labeling station for the labeling machine according to claim 5, wherein the rectangular plate fixing seat is provided with a second guide rod in parallel, the front and rear sliding seats comprise a sliding block sleeved on the second guide rod in parallel and a fixing plate fixed on the sliding block, an adjusting block is sleeved on one side of the front and rear sliding seats on the second guide rod, a first adjusting rod is rotatably arranged on the adjusting block, a threaded hole is formed in the sliding block at a position opposite to the first adjusting rod, the first adjusting rod is in threaded connection with the adjusting block through the threaded hole, and a locking mechanism is arranged between the adjusting block and the rectangular plate fixing seat.

7. The self-adhesive label station for labeler according to claim 6, wherein the left-right inclination adjusting mechanism comprises a first adjusting rotating shaft rotatably connected between the first ends of the rotating rods, the fixing plate is oppositely provided with lug plates below the first adjusting rotating shaft, a second adjusting rotating shaft is arranged between the lug plates, the second adjusting rotating shaft is rotatably provided with a second adjusting rod, the first adjusting rotating shaft is provided with a threaded hole at a position opposite to the second adjusting rod, and the second adjusting rod is in threaded connection with the first adjusting rotating shaft through the threaded hole.

8. The self-adhesive labeling station for labeling machine according to claim 5, wherein the lifting mechanism comprises a screw lifter fixed on a lifting fixing seat, a guide post is arranged on the lifting fixing seat at the outer periphery of the screw lifter, the lifting fixing seat is sleeved on a screw rod and the guide post of the screw lifter and fixed with a lifting nut of the screw lifter, and a reinforcing plate is arranged between the screw rod and the top end of the guide post.

9. The self-adhesive labeling station for the labeling machine according to claim 5, wherein the front and rear inclination adjusting mechanism comprises a mounting hole disposed on the positioning plate and located on the lower side of the arc-shaped hole, a supporting plate disposed on the lifting seat and opposite to the mounting hole in the positioning plate, a third adjusting rotating shaft disposed between the supporting plate and the mounting hole in the positioning plate, a threaded hole disposed in the middle of the third adjusting rotating shaft, a third adjusting rod rotatably disposed on the rotating shaft at a position opposite to the threaded hole in the third adjusting rotating shaft, and a threaded connection between the third adjusting rod and the third adjusting rotating shaft.

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